Electric switching device



Feb. 6, 1940. mc s 2,189,588

ELECTRIC SWITCHING DEVICE Filed Dec. 2, 1937 2 Sheets-Sheet l TIM/N6 MECHANISM Inventor: George F. Lincks,

His Attorney Feb. 6, 1940. G. F. LINCKS 2,189,588

ELECTRIC SWITCHING DEVICE Filed Dec. 2, 1937 2 Sheets-Sheet 2 J Inventor: Gecbge F. Lincks,

y a: bg :i jAttOPSZ Patented Feb. 6, 1940 a UNITED STATES PATENT OFFICE ELECTRIC SWITCHING DEVICE George F. Lincks, Pittsiield, Masa, assignor to General Electric Company, a corporation 01' New York Application December 2, 1937, Serial No. 177,728 12 Claims. (Cl. 200-126) The present invention relates to electric switchshows the relative positions of the switching eleing devices, more particularly of the circuit rements after all of them have operated and closing type, and has for an object the provision dropped out; Figs. 4 and 5 are plan views of two of improvements in the construction and arrangeof the contactsemployed in the illustrated switch- 5 ment of parts of a circuit reclosing switching deing device; Fig. 6 is an enlarged detail view of 5 vice of the type wherein an individual switching certain of the parts corresponding to their poelement of a plurality of switching elements may sitions shown in Fig. 2; Fig. 7 is an enlarged debe switched into and out of circuit closing potail view of certain of the parts corresponding to sition without disturbing the positioning of other their positions shown in Fig. 3; and Fig. 8 is a 10 of the switching elements while movement of the detail view of the circuit reclosing mechanism as 10 individual switching element out of circuit closit would be seen by one looking from the right ing position is eifective to cause reclosure of the at the device of Fig. 1. circuit through another of the switching elements. Referring to the drawings, I 0 indicates a cross- Another object of the invention is the provision arm which is secured to a pole, not shown, of a of an improved circuit reclosing switching device transmission line and on which is mounted an 15 employing a plurality of switching elements, at insulator II by means of a strap I2 and a twoleast one of which is of the fused type, wherein part clamp I3. Strap I2 is secured-tightly in suroperation of the fused switching element autorounding relation to a reduced middle portion of matically effects movement thereof to open cirinsulator II by means of a bolt I 4 and is fastened cuit position and reclosure of the circuit through to one part of clamp I3 by means of a bolt I5. 20 another one of the switching elements, while The two parts of clamp If are disposed respecmovement of a master one of the switching eletively on opposite sides of cross-arm I0 and conments to open circuit position effects movement nected tightly together by means of bolts I6. At of all of the switching elements to open circuit the upper end of insulator is a contact I1 which position. consists of a rod of copper or other good conduc- 25 A further object of the invention is the protivity metal bent around the upper end of the invision of a circuit reclosing switching device emsulator and seated in an annular groove I8. As ploying a plurality of switching elements, certain will be seen best from the plan view of Fig. 4, of which are of the fused type, wherein one of the contact I! is secured to the insulator by means switching elements, which may be of the fused of a combined clamp and connector 20 and has 30 type, is employed as the main connecting and distwo arms 2| extending outwardly in parallel reconnecting means for the whole switching device. lationship and provided at their outer ends with A still further object of the invention is the divergent horns 22 which serve to guide the upper provision of an improved circuit reclosing switchend of a switching element, hereinafter described,

ing device employing a plurality of switching eleinto a latching seat 23 formed by the relatively 35 ments, at least one of which is of the fused type, converging portions 24 of the arms. The outer wherein a master switching element is employed ends of the arms are prevented from spreading as the support for the fused switching element apart by means of a clamp 25 which is disposed and circuit reclosing mechanism. on the downwardly bent portion 26 0f the arms,

It is an object of the invention also to provide as best shown in Fig. 1. The combined clamp and t improved construction and arrangement of parts connector 20 serves for the attachment of a linein a circuit reclosing fuse cutout of the drop-out lead 21 to upper contact I1. At the lower end of t insulator I I is a second contact 30 also comprised Other objects and the details of that which I of a rod of copper or other good conductivity believe to be novel and my invention will become metal which is bent around the insulator and 5 apparent from the following description and the tig t y Secured in an a u a groove 3| in the claims appended thereto taken in conjunction insulator by means of a combined clamp and conwith the accompanying drawings wherein an exnector 32 which also serves for the attachment emplary form of switching device embodying the of the line lead 33 to the lower contact. The rod present invention is illustrated. forming the lower contact 30 has its free ends 5 In the drawings Fig. 1 shows the switching eleturned inwardly and extending into a metal sleeve ments of an exemplary switching device in their 34 which serves as a pivot for a switching element, closed circuit positions; Fig. 2 shows the relative as will be described hereinafter. Guide plates 35, positions of the switching elements after operaone of which is seen in the drawings, are mounted tion and drop-out of one of the elements; Fig. 3 in spaced relationship on sleeve 34 for receiving 55 therebetween and guiding a" toggle lever, also described hereinafter. It is to be understood that the present invention is not limited to the details of the illustrated support and stationary contacts which are shown merely as an exemplary form of switch supporting structure primarily designed for a singlefuse holder or switching unit in a non-reclosing installation, yet which supporting structure may be utilized without change for supporting a circuit reclosing fuse unit of the type hereinafter described for conversion of a non-reclosing installation to a circuit recloslng installation. The general formation of the particular stationary contacts illustrated, the manher of mounting thereof, and the details of clamps 28 and 32 form part of the subject matter of United States Letters Patent No. 2,025,563, issued December 24, 1935, in the name of R. S. Bennett and assigned to the assignee of the present invention, while certain specific details of the formation of upper contact N form part of the subject matter of United States Letters Patent No.

2,119,388, issued May 31, 1938, in the name of B. R. Hermann and also assigned to the assignee of the present invention.

A switching element including a fuse holder 38 is pivotally mounted on lower stationary contact 30 for connection of a fused link in the holder between the two stationary contacts. The upper end of the fuse holder is closed by means of a removable contact cap 39 adapted to provide a terminal for the upper end of a fuse link in the fuse holder and having a conical projection 40 adapted to be received in the latching seat 23 of upper stationary contact H. The particular form of contact cap 39 also is not part of the present invention but is part of the subject matter of the above-identified patent of B. R. Hermann, in which patent the manner of cooperation of conical projection 48 with upper contact I1 and the advantageous results derived therefrom are set forth in detail. Fuse holder 38 is pivotally mounted on the sleeve 34 of lower contact 30 by means of a toggle lever 4| and a fuse holder support 42. Support 42 is in the form of a strap clamped about fuse holder 38 adjacent the lower end thereof by means of bolts 43. Toggle lever 4| is connected to the outwardly projecting arms of this strap by means of pivot pin 44 and has a hook-shaped portion 45 arranged to engage sleeve 34 and to be received between guide plates 35. Secured to the toggle lever by means of screw 46 and depending therefrom is a member 41 of insulation material upon the lower end of which is mounted, by means of a screw 48, a fuseterminal 58. This terminal is arranged to have clamped thereto, by means of a thumb-screw 5| or other suitable means, the outwardly extending portion 52 of a fuse link in fuse holder 38. While the fuse link in fuse holder 38 is intact, lever 4| is held in the position illustrated in Figs. 1 and 2 relative to the fuse holder by the clamped fuse link extension 52, the upper end of the fuse link being anchored in the upper end of the fuse holder. Under these conditions, the switching element including fuse holder 38, support 42 and lever 4|, may be opened or closed manually either by hand or a switch stick, not shown. For this purpose there is provided an eyelet handle 53 carried by a metal sleeve 54 clamped on the fuse holder adjacent the upper end thereof. However, when fuse holder 38 is in closed position and the other parts of the switching device are in their positions illustrated in Fig. 1,

the fuse link in the fuse holder is not connected between contacts l1 and 30 since fuse link extension 52 is insulated from lever 4| and contact 30 by means of member 41.

A second switching element, including a second fuse holder 56, and a circuit reclosing mechanism, both of which are now to be described, are mounted on the first switching element, hereinbefore described. -At the upper end of the first fuse holder 38 is mounted a contact terminal 51 which is comprised of a rod of copper or other good conducting metal bent around the fuse holder in electrically conductive relation with contact cap 38 and secured in position by a clamp 58. As best shown in Fig. 5, contact 51 has two arms projecting outwardly in parallel extending relationship and provided at their outer ends with divergent horns 58 for guiding the conical projection 60 of the contact cap 6| on the upper end of fuse holder 56 into a latching seat 62 formed by converging portions 63 of the arms of contact 51.. The outer ends of the arms of contact 51 are prevented from spreading by a clamp 64 which serves also as a back stop for conical projection 60 upon recoil of holder 56 due to operation of the fuse link therein. Fastened to fuse holder 56 just below contact cap 6| is an eyelet handle 65 which may be grasped manually or engaged by a suitable form of switch stick for swinging the fuse holder into and out of closed position. In order pivotally to support fuse holder 56, there is provided an electrically conductive supporting plate 66 which is secured to the strap 42 on fuse holder 38 by means of the bolts 43 and which plate has a hinge pin 61 adapted to be engaged by and to support a metal toggle lever 68. This toggle lever is connected, by means of a pivot pin 69, to the outwardly projecting arms of a metal strap 10 clamped on the lower end of fuse holder 56 by means of bolt 1|. Toggle lever 68 has a hook-shaped portion 12 for detachable engagement with hinge pin 61 and the hinge pin has a flanged head 13 for preventing sidewise displacement of the toggle lever on the hinge pin. Lever 68 normally is held in the position illustrated in Fig. 1, relative to holder 56, by means of a lower outwardly extending portion 14 of a fuse link which has its upper end anchored in fuse holder 56, the outwardly extending fuse link portion 14 being clamped to toggle lever 68 by means of thumbscrew 15. With the parts of the switching device in their positions illustrated in Fig. 1, the fuse link in holder 38 is electrically isolated from lower stationary contact 30, as previously pointed out, while the fuse link in holder 56 is electrically connected between stationary contacts l1 and 30. The circuit extends from contact |1 through contact cap 38, contact terminal 51, contact cap 6|, the fuse link in holder 56, fuse link extension 14, lever 68, hinge pin 61, supporting plate 66, strap 42, toggle lever 4|, and sleeve 34 to lower stationary contact 30. Under these conditions, the switching element or unit including holder 56, strap 18 and lever 68 may be swung into or out of its closed position illustrated in Fig. 1 without disturbing the positioning of the switching element including holder 38. Or, with holder 56 in closed position, holder 38 and its associated parts may be operated as a disconnect switch completely to open the circuit between stationary contacts I1 and 30.

The details of the circuit reclosing mechanism employed in the switching device of the present invention will be seen best in the views of Figs. 6, 7, and 8. This mechanism includes a transfer contact, inclusively designated 88, which ispivotally supported by means of a pin 8| on the upper end of a rotatably mounted switch arm 82. Contact 88 is comprised of a pair of plates 83 and 84 held in parallel spaced apart relation at the top by means of a block 85 and at the bottom by means of pin 81. Switching arm 82 is rotatable on a pin 88 carried by electrically conductive supporting plate 88 and is biased for clockwise rotation, as viewed in the drawings, by a helical spring 81 one end of which engages a boss 88 on the switching armand the other end of which engages a flange 89 on plate 88. Contact 88 is biased for counterclockwise rotation relative to arm 82 and about pin 8| by means of a tension spring 98 one end of which is connected to an outwardly projecting end 9| of pin 88, which supports arm 82, and the other end of which spring 98 is attached to a pin 92 carried by contact 88 at one side of pivot pin 8|. Thus spring 98 tends to produce the counter-clockwise rotation of contact 88 relative to arm 82 by pulling down on the contact, and the relative movement between contact 88 and arm 82 is limited by engagement of pin 92 with arm 82 as shown in Figs. 6 and '7. 'Ijhe left-hand plate 83, as viewed in Fig. 8, of contact 88 has a notch 93 arranged normally to be engaged by a small boss 94 carried by a trip lock 95 for maintaining arm 82 normally in a substantially vertical position and contact 881 in open circuit position relative to terminal 58 as shown in Fig. 1. The body portion of trip lock 95 extends approximately vertically and has on its lower end a large boss 98 arranged to project through an opening 91 in supporting plate 88, as best shown in Fig. 8. Also, the body portion of trip lock 95 is slidably mounted on a pin I88 carried by supporting plate 88 and is biased for movement toward the left, as viewed in Fig. 8, by means of a helical spring IN, the outer end of which bears against the outer flanged end I82 of pin I88. When trip lock 95 is pressed to the left by spring I8I, the smaller boss 84 on the upper end thereof projects through an opening I83 in supporting plate 88, as indicated in Fig. 6, and is disengaged from notch 93 of contact 88. However, the trip lock 95 is arranged normally to be maintained in its right-hand position, illustrated in Fig. 8, by engagement of toggle lever 88 with the outer end of boss 98. The hooked portion 12 of lever 88 is of substantially U-shape with the spaced arms I85 and I88 thereof converging toward each other toward the end of the hook-shaped portion, as shown in Fig. 8. When fuse holder 58 and toggle lever 88 are in their 'positions illustrated in Fig. 1, the arm I88 of the U-shaped portion of lever 88 bears against the outer end of boss 98 to hold trip lock 95 in its right-hand position, as viewed 'in Fig. 8, wherein boss 94 engages notch 93 of contact 88 to maintain the contact in open circuit position and arm 82 in a substantially vertical position. Under these circumstances, the teeth of a ratchet wheel I 81 engage a toothed underneath surface I88 of block 85 which forms a portion of contact 88. It will be noted that the teeth of ratchet wheel I81 slant to the left 'while the teeth of block 85 slant to the right. With this arrangement contact 88 may be moved to the left, as viewed in the drawings, without effecting rotation of ratchet wheel I81 since the flexible connection between contact 88 and arm 82 and the relative slant of the teeth permit the 'toothed sur-- face I88 to slide over the teeth of ratchet I81. However, when force is applied to arm 82 to move contact 88 to the right, the downward pull of spring 98 causes toothed surface I88 to mesh firmly with the teeth of ratchet I81 so that contact 88 can not move to the right without accompanying rotation of the ratchet wheel. An eyelet handle I89 is provided on the lower end of arm 82 for manual rotation of the arm in a counter-clockwise direction. In order to prevent arm 82 from rotating too far in a clockwise direction under the influence of spring 81 when terminal 58 is not in position to be engaged by contact 88, there is provided on arm 82 a boss 8 arranged to engage flange 89 on the lower end of supporting plate 88. The ratchet wheel I81 is mounted on a shaft III which is arranged to be received in slots 2 disposed just below block 85 in the spaced apart plates 83 and 84 of contact 88. Shaft III extends through supporting plate 88 into a casing II3, mounted on the opposite side of the supporting plate 88, and connects with a timing mechanism disposed in the casing. The details of this timing mecha nism are not shown since they do not go to the essence of the present invention and any suitable timing mechanism may be employed, such as for example the inertia type mechanical escapement disclosed and described in detail in United States Letters Patent No. 2,165,015, issued July 4, 1939, in the name of L. P. Sohles, and assigned to the assignee of the present invention.

With an understanding of the relationship of the various parts of the switching device from the foregoing description, the installation and operation of the device may now be described. After installation of fuse links in fuse holders 38 and 56 in the usual manner and fastening of the fuse link extensions 52 and 14 to fuse terminal 58 and lever 88 respectively, lever 88 is mounted on hinge pin 81 and fuse holder 58 rotated until the conical projection 68 of contact cap 8| is latched in seat 82 of contact terminal 51. As fuse holder 56 is rotated into the position illustrated in Fig. '1, relative to fuse holder 38, the tapered hook portion of lever 88 engages boss 98 to force trip lock 95 to the right to its position illustrated in Fig. 8 wherein it is held by the arm I 88 of lever 88 so long as fuse holder 58 is latched in closed position. Arm 82 then is rotated in a counter-clockwise direction by means of handle I89, thereby causing contact 88 to move to the left with the toothed surface I 88 of block 85 sliding over the teeth of ratchet wheel I81 due to the flexible mounting of contact 88 on arm 82, as previously described. When contact 88 has been moved sufliciently far to the left, boss 94 of trip lock 95 engages notch 93 to hold the contact in open circuit position. Thus, the circuit reclosing mechanism is set for operation. The supporting switching element, including fuse holder 38, may then be mounted on lower stationary contact 38 by engagement of the hook-shaped portion of toggle lever 4| with sleeve 34, and the whole assembly may be rotated into the position illustrated in Fig. 1 wherein the conical projection 48 of the terminal cap 39 on the upper end of fuse holder 38 is latched in seat 23 of upper stationary contact I1. It will of course be understood that these various steps in the installation may be accomplished in difierent order from that described, as for example the switching element including fuse holder 38 may be first installed in closed position and then the switching element including fuse holder 56 mounted thereon and the circuit reclosing mechanism set.

With the parts in their positions illustrated in Fig. 1, the fuse link in fuse holder 56 is connected between stationary contacts l1 and 30 while the lower end of the fuse link in fuse holder 38 is isolated from lower stationary contact 30, as previously described. Under these circumstances, fuse holder 38 may be rotated manually, either by hand or by means of a switch stick, to open circuit position so as to open the circuit of which contacts I! and 36 form a part, while the fuse links in both fuse holders are still intact. On the other hand, fuse holder 38 may be left in closed position and fuse holder 56 rotated to open circuit position while the fuse links in both the holders still are intact. This latter operation will cause the tapered hook-shaped portion of toggle lever 68 to become disengaged from boss 96 so that trip lock 95 may move to the left, as viewed in Fig. 8, under the influence of spring lfll. Thereupon boss 94 becomes disengaged from notch 93 so that spring 81 may become effective to rotate arm 82 and contact 86 in a clockwise direction. This clockwise movement is delayed so long as the toothed surface I68 engages the teeth of ratchet I81, the contact being pulled down by spring 90 to maintain this engagement, as previously described. The extent of toothed surface I08 is such that when contact 80 reaches a point at a predetermined distance from fuse terminal 50, the contact will be released from ratchet I01 to permit snap-action movement of the contact under the influence of spring 81 into engagement with fuse terminal 50 thereby to complete the electric connection of the fuse link in fuse holder 38 between stationary contacts l1 and 36. The final snap-action movement of the contact prevents the drawing of an are between the contact and terminal 50. The reclosed circuit extends from upper stationary contact I! through contact cap 39, the fuse link in fuse holder 38, fuse link extension 52, terminal 56, contact 80, arm 82, pivot 86, supporting plate 66, strap 42, toggle lever 4|, and sleeve 34, to lower stationary contact 30.

With the parts of the switching device in their positions illustrated in Fig. l, the same circuit reclosing operation described in the preceding paragraph takes place when the fuse link in fuse holder 56 ruptures due to a fault current. Under these circumstances, fuse link extension 14 is released to permit collapse of the supporting toggle mechanism of which lever 68 forms a part. Lever 68 then swings downwardly about hinge pin 61 so that fuse holder 56 may move downwardly until conical projection 60 disengages from contact 51. Fuse holder 56 tHen swings to its open position illustrated in Fig. 2. The downward movement of toggle lever 68 about hinge pin 61 releases the circuit reclosing mechanism for operation to reclose the circuit through the fuse link in fuse holder 38 by engagement of contact 80 with terminal 56 in the manner described in the preceding paragraph. The delay in the movement of contact 80 to circuit closing position, due to the action of the timing mechanism in casing H3, provides for clearing of a partially sustained but temporary fault after clearing of the circuit in fuse holder 56 and before the circuit is reclosed through the fuse link in fuse holder 38, so that the fuse links in both of the holders will not operate on the same temporary fault. The switching element including fuse holder 56 is prevented from jumping off of hinge .States Letters Patent No. 1,973,265, issued September 11, 1934, in the name of C. J. B. Olsen and myself, which said Letters Patent are assigned to the assignee of the present invention.

With the parts of the switching device in their positions illustrated in Fig. 2, an opportunity is afforded for removal of the outer switching element for refusing of fuse holder 56 while the circuit is still protected by an intact fuse link in fuse holder 38. Removal of the outer switching element may be readily accomplished by lifting .up on fuse holder 56 and disengaging lever 68 from hinge pin 61. In case of continuing or recurring fault, the fuse link in fuse holder 38 ruptures to release fuse link extension 52 so that the toggle mechanism including lever 4| collapses. This permits holder 38 to move downwardly to disengage conical projection 40 from latching seat 23 of contact ll, whereupon holder 38 swings to its dropped-out position shown in Fig. 3. Lever 4| is prevented from jumping off of sleeve 34 during the drop-out operation, in a manner similar to that described in connection with lever 88, by means of a keeper I pivoted at l2| on strap 42 and extending down between guide pins I22 to close the opening inthe hook-shaped portion of lever 4|. Removal of the inner switching element may be accomplished for refusing of holder 38 in the same manner as described in connection with the outer switching element.

From the foregoing description, it will be evident that the present invention is not limited to the specific details of the exemplary embodiment illustrated and that modifications within the scope of an ordinary skilled mechanic may be made to adapt the illustrated embodiment to different conditions met with in practice. For example, an electrically conductive disconnecting blade may be employed instead of a fuse holder in the inner switching element, care being taken to provide for insulation normally of the lower end of the blade from the lower contact. Also, another switching element, like the inner switching element and having circuit reclosing mechanism as illustrated and hereinbefore described, may be mounted on the inner switching element and employed to support a third switching element, thereby to provide for more than one circuit reclosure. Hence, it is intended to cover by the appended claims such modifications or other embodiments as do not depart from the true spirit and scope of the present invention.

What I claim as new and desire to secure by Letters Patent of the United States is:

1. In an electric switching device, a pair of contacts, a switching element supported removably in closed position relative to said contacts and having a pair of spaced terminals one of which is electrically connected with one of said contacts and the other of which terminals is electrically isolated from the other of said contacts, a second pair of terminals supported by said element in insulated spaced relationship and electrically connected respectively with said contacts, a fused switching element, means supporting said fused element on said first element for removable connection between said second terminals, said fused element being movable to an open position without movement of said first element from its said closed position, and switching mechanism automatically operative upon movement of said fused element to open position for completing an electric connection between the said other terminal of said first pair of terminals and said other of said contacts.

2. In an electric switching device, a pair of contacts, a switching element supported removably in closed position relative to said contacts and having a pair of spaced terminals one of which is electrically connected with one of said contacts and the other of whichterminals is electrically isolated from the other of said contacts, a second pair of terminals supported by said element in insulated spaced relationship and electrically connected respectively with said contacts, a fused switching element, means supporting said fused element on said first element for removable connection between said second terminals, said fused element being movable to an open position without movement of said first element from its said closed position, and switching mechanism supported by one of said elements and automatically operative upon movement of said fused element to open position for completing an electric connection between the said other terminal of said first pair of terminals and said other of said contacts.

3. In an electric switching device, a pair of contacts, a switching element supported removably in closed position relative to said contacts and having a pair of spaced terminals one of which is electrically connected with one of said contacts and the other of which terminals is electrically isolated from the other of said contacts, a second pair of terminals supported by said'element in insulated spaced relationship and electrically connected respectively with said contacts, a fused switching element, means supporting said fused element on said first element for pivotal movement of said fused element relative to said first element into and out of a closed position wherein said fused element is connected between said second pair of terminals, means operative responsively to operation of said fused element when the latter is in closed position for effecting movement of said fused element to open position, and switching mechanism releasable by movement of said fused element from its said closed position for automatically completing an electric connection of said other of said first pair of terminals with said other of said contacts.

4. In an electric switching device, a supporting structure having spaced stationary contacts, a pair of switching units, supporting means for said units removably mounted on said supporting structure, said supporting means being arranged for pivoting of one of said units relative to said supporting structure and for pivoting of the other of said units relative to said one unit, said one unit including an electrically conductive element and said other unit including a fusible electrically conductive element, means for releasably maintaining said units in operative positions relative to each other and to said supporting structure, means operative when said units are in said operative positions for electrically connecting one end of each of said conductive elements with one of said contacts and for electrically connecting the other end of said fusible conductive element with the other of said contacts, said one unit being movholder on one of said able out of operative position to eifect disconmotion of both of said conductive elements from said one contact, said other unit being movable out of operative position without effecting movcment of said one unit out of operative position, and circuit reclosing mechanism carried by said supporting means operative responsively to movement of said other unit out of operative position when said one unit is in operative position for completing an electric connection between said other contactand the other end of the conductive element of said one unit.

5. A unitary switch element comprising in combination, a switch member having a pair of contact engaging terminals and also a third terminal insulated from one of said pair of terminals, said member including a conductor electrically connected between said third terminal and the other of said pair of terminals, switching mechanism forming part of said unitary element and including a contact operable to complete connection between said third terminal and said other of said pair of terminals, means for releasably restraining said contact in open position, means provided for removable mounting of saidunitaryelementon a switch supporting structure with said pair of terminals respectively engaging spaced contacts of the supporting structure, and means provided for movably supporting a second switch member on said unitary element, said last means providing for movement of such second switch member relative to said first switch member to and from a position connected between said pair of termirials.

6. A unitary switch element for use in an electric switching device including a supporting structure and spaced. contacts, said element comprising a fuse holder, a pair of contact engaging terminals carried by said holder in insulated spaced relationship, one of said terminals including a hinge lever for pivotally supporting said holder on a supporting structure, a .third terminal supported by said lever in electrically insulated relationship thereto, means for securing to said third terminal one end of a fuse link in said holder for releasably latching said lever in predetermined relation to said holder, and switching mechanism mechanically connected to said holder including a contact movable to a closed position for completing an electric connection between said third terminal and said one of said pair of terminals and latching means for releasably maintaining said contact in an open position.

7. In an electric switching device, a pair of contacts, a switching element, means normally supporting said switching element in closed position relative to said contacts, said element having a first pair of terminals one of which is normally electrically connected with one of said contacts and the other of which terminals is normally electrically isolated from the other of said contacts, a second pair of terminals supported by said element in insulated spaced relationship and electrically connected respectively with said contacts, a fuse holder having a terminal at one end thereof, means pivotally supporting said second pair of terminals for movement of the holder into a closed position wherein said holder term nal engages the other of said second pair of terminals, a fuse link in said holder electrically connected at one end with said holder terminal and electrically connected at the other end with said one of said second pair of terminals, means operative upon rupture of said fuse link for effecting movement of said holder to open position relative to said other of said second pair of terminals, and circuit reclosing mechanism supported by said switching element and operative automatically upon movement of said holder from its said closed position for completing an electric connection between said other of said first pair of terminals and said other of said contacts.

8. In an electric switching device, an insulating support having a pair of stationary contacts, a first switching element including a first fuse holder, means removably supporting said first element on said support in closed position relative to said stationary contacts for connection of a fuse link in said first holder between the stationary contacts, a pair of terminals carried by said first element in insulated spaced relationship, means for electrically connecting said terminals respectively with said pair of stationary contacts, a second switching element including a second fuse holder, means removably supporting said second element on said first element in closed position relative to said terminals for connection of a fuse link in said second holder between said terminals, and circuit reclosing mechanism carried by one of said elements and operable responsively to operation of a fuse link in said second holder for completing an electric connection of a fuse link in said first holder between said stationary contacts.

9. In an electric switching device, an insulating support having a pair of spaced contacts, a switching element mounted on said support and having a pair of terminals one of'which is normally electrically connected with one of said contacts and the other of which terminals is normally electrically isolated from the other of said contacts, a supporting member and a second pair of terminals carried by said element, means for electrically connecting said second pair of terminals respectively with said contacts, a fuse holder, means including a hinge lever for pivotally mounting said holder on said supporting member, means for latching said holder in position for connection of a fuse link therein between said second pair of terminals, said latching means be ng operative to release said holder for movement thereof to an open position upon rupture of a fuse link in the holder, and circuit reclosing mechanism releasable by movement of said lever relative to said supporting member due to movement of said holder toward open position for completing an electric connection between said other of said first pair of terminals and said other of said contacts thereby to connect said switching element between said contacts.

10. In an electric switching device, an upper and -a lower contact, a fuse holder having a first terminal at the upper end thereof, means including a toggle lever pivotally supporting said holder on said lower contact and normally releasably latched by a fuse link in said holder to maintain said holder in closed position with said terminal engaging said upper contact, said fuse link having one end electrically connected with said terminal and the other and electrically isolated from said lower contact, a second terminal carried by said holder in electrically conductive relation with said first terminal, an

electrically conductive supporting element carried by said holder in electrically conductive relation with said lever, a second fuse holder having a terminal at the upper end thereof, means including a second toggle lever pivotally supporting said second holder on said supporting element and normally releasably latched by a fuse link in said second holder to maintain said second holder in closed position with said third mentloned terminal engaglng the said second terminal on said first holder, said second fuse link being arranged for connection between said third terminal and said supporting element and said second holder being movable to open position ly disconnected at at least one end from one of said contacts, a second switch element including a conductor, means for supporting saidsecond element on said first element with said second element in closed position and said second conductor electrically connected between said contacts, said second element being movable relative to said first element to open position without eilecting movement of said first element from closed position, and circuit reclosing mechanism operative to complete connection of said first conductor between said contacts in response to movement of said second element relative to said first element to open position, said first element being operative to disconnect both of said elements from at least one of said contacts upon movement of the first element to open position.

12. In an electric switching device, a switch support having spaced terminals, a plurality of switch elements, means removably supporting said elements on said supporting structure, means releasably restraining said elements concurrently in operative positions for electric connection of conductors of the respective elements between said terminals, oneof said elements when in operative position having a conductor electrically disconnected at at least one end from one of said terminals when another of said elements is in operative position, said one element being operative, upon movement thereof to open position, to effect movement of all said elements to open position, said supporting and restraining means providing for movement of said other element relative to said one element to open position without effecting movement of said one element to open position, and circuit reclosing mechanism operative when said one element is in operative position to complete connection of the conductor of said one element between said terminals in response to movement of said other element relative to said one element to open position.

GEORGE F. LINCKS. 

